Multi-layered electronic puzzle

ABSTRACT

A system for generating an electronic puzzle for a user. The system comprises a user interface; a processor in communication with the user interface; and a memory in communication with the processor. The processor is effective to receive a first image and a second set of images; break the first image into a plurality of first pieces; and create a plurality of partitions corresponding to the first image and the second set of images, each partition defining an area. The processor is further effective to display the first pieces to the user on a user interface; receive a first request from a user to release a particular one of the first pieces at a first location; when the first location is inside an area of a first particular partition corresponding to the particular first piece, display the first piece in the first particular partition on the user interface. The processor is further effective to display the second set of images to the user on the user interface; receive a second request from the user to release a particular one of the second images at a second location; and when the second location is inside an area of a second particular partition corresponding to the particular one of the second images, display the particular one of the second images in the second particular partition on the user interface.

BACKGROUND OF THE INVENTION

1. Field of the Invention

This disclosure relates to a system and method for generating anelectronic puzzle and, more particularly, to a system and method forgenerating a multi-layered electronic puzzle.

2. Description of the Related Art

Jigsaw puzzles are known. In such puzzles, a source image is broken intoa plurality of pieces with varying shapes. The pieces and shapes aredesigned so that they may be placed together to re-form the originalsource image. Electronic puzzles have also been used where the sourceimage is displayed on a user interface such as a computer screen. Thesource image is broken into a plurality of electronic pieces of varyingshapes. Those electronic pieces are designed so that they may be placedtogether to re-form the original source image. This disclosure describesan improvement of these prior art technologies.

SUMMARY OF THE INVENTION

One embodiment of the invention is a method for generating an electronicpuzzle for a user. The method comprises receiving, at a processor, afirst image and a second set of images; breaking, at the processor, thefirst image into a plurality of first pieces; and creating, at theprocessor, a plurality of partitions corresponding to the first imageand the second set of images, each partition defining an area. Themethod further comprises displaying the first pieces to the user on auser interface; receiving a first request, at the processor, from a userto release a particular first piece at a first location; when the firstlocation is inside an area of a first particular partition correspondingto the particular first piece, displaying the first piece in the firstparticular partition on the user interface. The method further comprisesdisplaying the second set of images to the user on the user interface;receiving a second request, at the processor, from the user to release aparticular one of the second images at a second location; and when thesecond location is inside an area of a second particular partitioncorresponding to the particular one of the second images, displaying theparticular one of the second images in the second particular partitionon the user interface.

Another embodiment of the invention is a system for generating anelectronic puzzle for a user. The system comprises a user interface; aprocessor in communication with the user interface; and a memory incommunication with the processor. The processor is effective to receivea first image and a second set of images; break the first image into aplurality of first pieces; and create a plurality of partitionscorresponding to the first image and the second set of images, eachpartition defining an area. The processor is further effective todisplay the first pieces to the user on a user interface; receive afirst request from a user to release a particular one of the firstpieces at a first location; when the first location is inside an area ofa first particular partition corresponding to the particular firstpiece, display the first piece in the first particular partition on theuser interface. The processor is further effective to display the secondset of images to the user on the user interface; receive a secondrequest from the user to release a particular one of the second imagesat a second location; and when the second location is inside an area ofa second particular partition corresponding to the particular one of thesecond images, display the particular one of the second images in thesecond particular partition on the user interface.

BRIEF DESCRIPTION OF THE DRAWINGS

The drawings constitute a part of the specification and includeexemplary embodiments of the present invention and illustrate variousobjects and features thereof.

FIG. 1 is system diagram of a system effective to generate amulti-layered electronic puzzle in accordance with an embodiment of theinvention.

FIG. 2 is system diagram of a system effective to generate amulti-layered electronic puzzle in accordance with an embodiment of theinvention.

FIG. 3 is system diagram of a system effective to generate amulti-layered electronic puzzle in accordance with an embodiment of theinvention.

FIG. 4 is system diagram of a system effective to generate amulti-layered electronic puzzle in accordance with an embodiment of theinvention.

FIG. 5 is system diagram of a system effective to generate amulti-layered electronic puzzle in accordance with an embodiment of theinvention.

FIG. 6 is a flow chart of a process for generating a multi-layeredelectronic puzzle in accordance with an embodiment of the invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT(S)

Various embodiments of the invention are described hereinafter withreference to the figures. Elements of like structures or function arerepresented with like reference numerals throughout the figures. Thefigures are only intended to facilitate the description of the inventionor as a guide on the scope of the invention. In addition, an aspectdescribed in conjunction with a particular embodiment of the inventionis not necessarily limited to that embodiment and can be practiced inconjunction with any other embodiments of the invention.

Referring to FIG. 1, there is shown a system 50 effective to generate amulti-layered electronic jigsaw puzzle. System 50 includes a processor58 which could be controlled by a program 62 stored in a memory 60 incommunication with processor 58. Program 62 controls processor 58 todisplay jigsaw images 64 on a user interface such as a SMART BOARD 54 ora monitor 56 or on any other user interface in communication withprocessor 58. User interface 54, 56 may have a tactile input such that auser 52 can touch user interface 54, 56 and move images displayedthereon.

A source file 70 including an image 66 and a second set of images 74that may be part of the multi-layered electronic jigsaw puzzle may besent to processor 58. Program 62 may break up image 66 into a pluralityof pieces 72 a, 72 b, 72 c, 72 d. Program 62 then creates partitions 68corresponding to pieces 72 and second set of images 74. Upon request bya user 52 to start a puzzle relating to image 66, partitions 68 areassigned to user interface 54, 56 so that program 62 knows where pieces72 should be placed. Each partition 68 is a defined area (e.g. a set ofx and y coordinates) on user interface 54, 56. Partitions 68 aregenerally not visible to user 52 and are shown in phantom in FIG. 1.

Referring to FIG. 2, pieces 72 are displayed on user interface 54, 56and may be moved by user 52 to be placed on the corresponding partitions68. For example, as shown in FIG. 2, user 52 has moved pieces 72 a, 72b, 72 d to be placed on corresponding partitions 68 a, 68 b, 68 d. Piece72 c is shown as not yet being placed on corresponding partition 68 c ofimage 66. When user 52 releases a piece 72 such as by pressing orreleasing a mouse button or releasing a touch with a SMART BOARD,processor 58 determines a first location (for example, an x, ycoordinate at a center or an entire area) of piece 72 with respect touser interface 54, 56. If the first location of piece 72 is inside anarea of corresponding partition 68 where piece 72 fits in image 66,program 62 controls processor 58 to lock piece 72 and to control userinterface 54, 56 to display piece 72 at a location corresponding topartition 68. Otherwise, program 62 controls processor 58 to displaypiece 68 at a random location on user interface 54, 56.

User 52 may move pieces 72 a, 72 b, 72 c, 72 d on user interface 54, 56until image 66 is re-formed. For example, as shown in FIG. 2, pieces 72a, 72 b and 72 d have been placed in their respective locations in image66 while piece 72 c is displayed at a location outside of the peripheryof image 66 awaiting placement by user 52. Referring to FIG. 3, when allof pieces 72 are placed on corresponding partitions, and processor 58controls user interface 54, 56 to display all pieces 72, processor 58further controls user interface 54, 56 to remove lines between pieces 72so that image 66 appears to be smooth and free of edges. A movie storedin memory 60 may be displayed on top of or in place of image 66 toreward user 52 for re-forming image 66.

Referring to FIG. 4, user 52 may now be shown a second set of pieces 74relating to the set of images 74. For example, image 66 may correspondto a geographic region such as a town or state. Second set of pieces 74may relate to further information about areas of a town shown in image66. For example pieces 74 may include labels of place names, cities,counties, towns, villages, hamlets, lighthouses, libraries, locationscorresponding to regional neighborhoods, census defined places,landmarks, bridges, civic centers, transportation hubs including air,rail and port facilities, or providers of social services such as fire,police, medical, cultural, and educational institutions. Pieces 74 mayremain not visible to user 52 until user 52 forms image 66. User 52 maythen move pieces 74 on top of partitions 68 (shown again with phantomlines) in the same way that pieces 72 were placed on partitions 68.Pieces 74 may be used to form an entire new image (not explicitly shown)on top of image 66 or simply be used as labels for image 66. Forexample, as shown in FIG. 5, piece 74 a placed on partition 66 a mayindicate that a lighthouse (74 a) is located in a particular area (66 a)of image 66. When a user 52 releases piece 74, processor 58 determines asecond location of piece 74. If the second location is inside an area ofcorresponding partition 68, program 62 controls process 58 to lock image74 and control user interface 54, 56 to display image 74 at a locationcorresponding to partition 68. {Where is image 74 displayed? It islikely that image 74 is not the same size as partition 68.} Otherwise,software 62 displays image 74 at a random location.

Rectangular shaped pieces are shown in the figures to simplify thedescription though it should be clear that pieces of any shape,including those that may conventionally conform to a jigsaw piece shape,may be used. To simplify programming, pieces 72 may be designed so as toonly be able to move horizontally and vertically and not be able to berotated about an axis.

Referring to FIG. 6, there is shown a flow chart illustrating a processfor displaying a multi-layered electronic puzzle in accordance with anembodiment of the invention. The process of FIG. 6 could be performedusing, for example, system 50 discussed above. As shown, at step S2, aprocessor may receive a first source image and a second image which maybe a set of second images. At step S4, the processor breaks the firstsource image into a plurality of first pieces. At step S6, the processorcreates partitions for the first source image and the second set ofimages where each partition defines an area and each first piececorresponds to a partition and each one of the second set of imagescorresponds to a partition. At this point a user may request to playwith the electronic puzzle and moves one of the first pieces.

At step S8, a request is received from a user to release a particularone of the first pieces at a first location. At step S10, a query ismade to see whether the first location is inside an area of a partitioncorresponding to the particular first piece. If the answer to query S10is no, the particular first piece is moved to a random location at stepS12. If the answer to query S10 is yes, control branches to step S16 andthe particular first piece is displayed at the partition correspondingto the first location. Control branches to step S14, where a query ismade as to whether there are more first pieces to be placed. If theanswer to query S14 is yes, control branches to step S8. If the answerto query S14 is no, control branches to step S18 where a movie may bedisplayed congratulating the user.

At step S20, the second set of images are displayed to the user. At stepS22, a request is received from the user to release a particular one ofthe second set of images at a second location—which may be the same asthe first location referenced above. At step S24, a query is made as towhether the particular one of the second set of images is inside an areaof a partition corresponding to the particular one of the second set ofimages. If the answer to query S24 is no, the image displayed at arandom location at step S26 and control branches to step S22. If theanswer to query S24 is yes, control branches to step S28 and theparticular one of the second images is displayed at the partitioncorresponding to the second location. Control branches to step S30,where a query is made as to whether there are more of the second set ofimages to be placed. If the answer to query S30 is yes, control branchesto step S22. If the answer to query S30 is no, control branches to stepS32 where a second movie may be displayed congratulating the user.

A system in accordance with the above disclosure may help users enjoycooperative manipulation of geographic areas of local and regionalpatterns of housing, land use and preservation, emergency preparednessand designated routes of evacuation.

While the invention has been described with reference to a number ofexemplary embodiments, it will be understood by those skilled in the artthat various changes can be made and equivalents can be substituted forelements thereof without departing from the scope of the invention. Inaddition, many modifications can be made to adapt a particular situationor material to the teachings of the invention without departing fromessential scope thereof. Therefore, it is intended that the inventionnot be limited to any particular exemplary embodiment disclosed herein.

1. A method for generating an electronic puzzle for a user, the methodcomprising; receiving, at a processor, a first image and a second set ofimages; breaking, at the processor, the first image into a plurality offirst pieces; creating, at the processor, a plurality of partitionscorresponding to the first image and the second set of images, eachpartition defining an area; displaying the first pieces to the user on auser interface; receiving a first request, at the processor, from a userto release a particular first piece at a first location; when the firstlocation is inside an area of a first particular partition correspondingto the particular first piece, displaying the first piece in the firstparticular partition on the user interface; displaying the second set ofimages to the user on the user interface; receiving a second request, atthe processor, from the user to release a particular one of the secondimages at a second location; and when the second location is inside anarea of a second particular partition corresponding to the particularone of the second images, displaying the particular one of the secondimages in the second particular partition on the user interface.
 2. Themethod as recited in claim 1, wherein the first particular partition andthe second particular partition are distinct.
 3. The method as recitedin claim 1, further comprising when the first location is not inside anarea of the first particular partition, displaying the first piece at arandom location on the user interface.
 4. The method as recited in claim1, further comprising when the second location is not inside an area ofa second particular partition, displaying the particular one of thesecond images at a random location on the user interface.
 5. The methodas recited in claim 1, wherein the user interface is a SMART BOARD. 6.The method as recited in claim 1, further comprising before thedisplaying the second set of images, displaying a movie.
 7. The methodas recited in claim 1, further comprising before the displaying thesecond set of images, displaying the first image without displayinglines between the first pieces.
 8. The method as recited in claim 1,wherein the first image relates to a geographic region.
 9. The method asrecited in claim 8, wherein the second set of images relate to furtherinformation about the geographic region.
 10. A system for generating anelectronic puzzle for a user, the system comprising: a user interface; aprocessor in communication with the user interface; a memory incommunication with the processor; wherein the processor is effective toreceive a first image and a second set of images; break the first imageinto a plurality of first pieces; create a plurality of partitionscorresponding to the first image and the second set of images, eachpartition defining an area; display the first pieces to the user on auser interface; receive a first request from a user to release aparticular one of the first pieces at a first location; when the firstlocation is inside an area of a first particular partition correspondingto the particular first piece, display the first piece in the firstparticular partition on the user interface; display the second set ofimages to the user on the user interface; receive a second request fromthe user to release a particular one of the second images at a secondlocation; when the second location is inside an area of a secondparticular partition corresponding to the particular one of the secondimages, display the particular one of the second images in the secondparticular partition on the user interface.
 11. The system as recited inclaim 10, wherein the first particular partition and the secondparticular partition are distinct.
 12. The system as recited in claim10, wherein when the first location is not inside an area of the firstparticular partition, the processor displays the first piece at a randomlocation on the user interface.
 13. The system as recited in claim 10,wherein when the second location is not inside an area of a secondparticular partition, the processor displays the particular one of thesecond images at a random location on the user interface.
 14. The systemas recited in claim 10, wherein the user interface is a SMART BOARD. 15.The system as recited in claim 10, wherein before the processor displaysthe second set of images, the processor displays a movie.
 16. The systemas recited in claim 10, wherein before the processor displays the secondset of images, the processor displays the first image without displayinglines between the first pieces.
 17. The system as recited in claim 10,wherein the first image relates to a geographic region.
 18. The systemas recited in claim 17, wherein the second set of images relate tofurther information about the geographic region.